FR2847112A1 - Loudspeaker sound capturing device, has hood and holder, which are made of high noise absorbing material e.g. polyester foam, and holder has loudspeaker for producing sound, which is captured by microphone inserted in hood - Google Patents

Abstract

The device has a hood (1) and holder (2), which are made of high noise absorbing material e.g. polyester foam. The holder has a loudspeaker (6) for producing a sound, which is captured by a microphone (5) inserted in the hood. The microphone reacts to mechanical vibrations in a membrane, when the loudspeaker is powered on, and restores a signal containing a loudspeaker sound identity. The hood is a circular piece that caps the body and allows the microphone to be inserted to face the loudspeaker.

Description

The present invention relates to a device for capturing the sound of a loudspeaker in order to be able to recover an electrical signal containing the sound identity of the mentioned loudspeaker. This device is provided with physical qualities enabling it to provide for numerous applications and to overcome certain known drawbacks in the case of capture without the use of this device.
Description:
The device consists of two fixed parts, a body (2) and a cover (1). In the body (2) will be enclosed a loudspeaker (6) - (Fig. 10-11) and in the cover (1) will be inserted a microphone (5) - (Fig. 9).
The body (2) is a part capable of accommodating at its bottom (4) a loudspeaker (6) - (Fig. 10-11), and as required can have cutouts and openings (7) - ( Fig. 4-5-6-7-10-11), with various dimensions used if necessary to control various physical phenomena specific to local acoustic pressures. It has a projection (3) - (Fig. 4-5-78-10-11), making it possible to define a stop for the hood in order to position it at a premeditated height (Fig. 11).
The cover (1) is a circular piece serving to close off the body (2) and also allowing the insertion (8) - (Fig. 2-3-9), of a microphone (5) - (Fig. 9) positioned towards the speaker (6) - (Fig. 10-11). The cover (1) is designed so that the microphone receiving capsule (5) - (Fig. 9) is protected by a cylinder forming a side wall (8) - (Fig. 2-3-9), having the effect attenuate the lateral sounds and therefore improve the directivity of the capture field of the receiving cell.
The material of the body (2) and of the cover (1) is a material having qualities of sound absorption such as the various synthetic foams. The dimensions and the chemical composition of the material are not fixed because they are subject to development depending on: -Acoustic needs and requirements according to the type of application. - Dimensions of the additional parts' microphone (5) - (Fig.
9) and loudspeaker (6) - (Fig. 10-11) '.
The cover (1) closes the orifice of the body (2) and ensures the soundproofing of the latter (Fig. 10). Once the cover is fitted, the microphone (5) - (Fig. 9) is in a stationary position facing the diaphragm of the speaker (Fig.
11), the position of the microphone (5) - (Fig. 9) also being subject to various requirements related to the needs depending on the type of application envisaged.
When the loudspeaker (6) - (Fig. 10-11), is supplied with a signal, the microphone (5) - (Fig. 9) reacts to the mechanical energy of the diaphragm of the loudspeaker (6) - (Fig. 10-11) and delivers on its output a signal having all the harmonic characteristics of the loudspeaker.
Operation details:
The device, being made of sound-absorbing material, ensures a strong isolation from external sounds, favoring a considerable reduction of all ambient noises inside the device and aiming to improve the fidelity of capture.
Conversely, the sound from the loudspeaker is also vigorously isolated, the power applied to the loudspeaker does not totally reach the outside, the level of decibels outside the device is clearly restricted.
The internal part of the body can undergo various modifications of design, for example the addition of cutouts or vents allowing to return the rear wave of the diaphragm of the speaker to remove it from the front wave, this making it possible to divide the power absorbed by the walls of the device.
The theory is that inside the device, the various sounds are slightly reverberated, but the directional properties of the microphone and the foam film forming a wall around the microphone capsule, optimize the capture of the frontal mechanical energy transmitted through the speaker membrane.
Industrial applications:
The device can be suitable in speaker development laboratories, it will capture response curves of various prototypes. It can also allow the reduction of the general level of decibels in the test rooms, moreover it makes it possible to test several speakers in the same room, since the device has sufficient internal and external signal rejection, the devices do not interfere not between them.
The device has been specially designed to meet a huge need in applications in the music industry. Especially the world of guitarists who need to capture the sound of their amplifiers. Indeed, this day the capture of a guitar amplifier must be done with a microphone positioned in front of the loudspeaker and with a very high volume so as not to capture ambient sounds such as footsteps, snapping of strings, noises escape from the street, ambulances or miscellaneous during check-in. Most studios use soundproofed rooms but suffer from the inconvenience of long, arduous working days due to the unpleasantness of the very high decibel level.
This device is a revolution for this modern world because most musicians these days have personal computers and use it as a home studio. But to date there is no way for a person without a soundproof room to capture a guitar amplifier sound with total immunity to noise other than that of the speakers.
This device has internal and external sound immunity which results in the following benefits: -Allows finally to capture a sound of amplifier of guitar in apartment because the level of decibel is very low, low enough to be used a whole day without disturbing the neighborhood in the case of an apartment building or community. -Allows you to do without headphones for recording guitar takes, indeed without this device the sound of the HIFI reproduction chain would be captured by the microphone and would distort the fidelity of the captured sound. -The fidelity of capture is of professional level, being able thus to satisfy as much the confirmed professionals as any amateur. -The concerts broadcast very high ambient noise levels, causing enormous concern to the sound technicians. Indeed the production of 'live' music does not allow to give the results of a soundproof studio, the device will allow during its use in concert to keep the same quality as in the studio and will not pollute the sound of the capture of a guitar amplifier with the sounds of drums or front speakers. -Professionals will be able to use several devices in the same room in their studio to simultaneously record several guitarists and without the room being soundproofed or having acoustic properties. -The internal components 'speaker and microphone' are interchangeable and do not form an integral part of the device, they can be chosen according to the needs and tastes of the users.
In a way, the acoustic and phonic virtues of this device give it an exploitable faculty in innumerable industrial fields and of which it is impossible to establish the list to date.

Claims (1)

(3) obtains the obturation of the body (2) and its soundproofing. When the loudspeaker (6) is powered, the microphone (5) reacts to the vibrations of the membrane and thus captures all the mechanical information specific to the identity of the loudspeaker (6). 2) Device according to the preceding claims in that it thus allows its immunity to external sounds to promote internal silence to optimize the quality and fidelity of acoustic capture. 3) Device according to the preceding claims in that it allows its sound insulation to dissipate the energy of the speaker (6) so as not to emit any sound power to the outside of the device. 4) Device according to the preceding claims in that it allows its evolutionary drawing to position the microphone (5) freely according to needs and type of application. 2/2 CLAIMS 5) Device according to the preceding claims in that it makes it possible to reduce inside the device the level of local acoustic pressures by providing the body (2) with several vents or cutouts (7) for opening the speaker outline (6). This has the effect of physically subtracting the rear and front wave from the speaker (6), thus naturally reducing the general sound level in the device and consequently the level of external decibels. 6) Device according to the preceding claims in that it makes it possible to reduce the lateral sounds directed towards the microphone (5) by encircling it with a thin wall 'integral part of the cover (1) producing the insert of the microphone (8) 'around the cell in order to achieve additional immunity to the possible effects of internal reverberations. 7) Device according to the preceding claims in that it allows part of its design subject to evolution to accept all types of ancillary equipment 'speakers and various microphones', this equipment being of various dimensions the device can thus be drawn in functions of each of the dimensional needs. (6) whose sound is to be captured and in the cover (1) a microphone (5) is inserted. The cover (1) abutting on a projection CLAIMS 1/2 1) Device for capturing the sound of a loudspeaker (6) characterized in that it comprises two elements, a cover (1) and a body (2) both made of a material with high acoustic absorption such as various synthetic foams. In the body (2) is enclosed the speaker